Product | Manganese Oxide Nanoparticles | |
Stock No | NS6130-03-335 | |
CAS | 1317-34-6 | Confirm |
HS Code | 28251090 | Confirm |
Purity | 99.9% | Confirm |
APS | 80nm | Confirm |
Molecular Formula | Mn2O3 | Confirm |
Molecular Weight | 157.87 g/mol | Confirm |
Form | Powder | Confirm |
Color | Brownish - Black | Confirm |
Density | 4.50 g/cm³ | Confirm |
Melting Point | 888 °C | Confirm |
Solubility | Insoluble in alcohol, Acetone, Water | |
Quality Control | Each Lot of was tested successfully | |
Main Inspect Verifier | Manager QC |
Typical Chemical Analysis
Assay | 99.9% |
Other Metal | 1000ppm |
Manganese oxide nanoparticles can be utilized for advanced materials in batteries as well as other agents such as water treatment agents and imaging contrast agents. Manganese oxides nanomaterials ( MnO) and MnO2, have attracted great interest as anode materials in lithium-ion batteries (LIBs) for their high theoretical capacity, environmental benignity, low cost, and special properties. Up to now, manganese oxides nanostructures with excellent properties and various morphologies have been successfully synthesized.
Manganese oxide nanoparticles (MnO2) is one of the most attractive inorganic materials. The manganese oxide nanoparticles have a larger surface area, and these positively charged particles have a strong interaction with negatively charged particles. Compared to other metal oxide nanoparticles, MnO2 has the advantage of easily prepared from readily available solvents. Nano- MnO2 has been widely used in various areas and recently reported to have a good bactericidal effect.
Nano-sized Manganese oxide nanoparticles are expected to display better performance due to a reduction in grain size and increased surface area. It is also used to prepare soft magnetic materials such as manganese, zinc ferrite, which is useful for magnetic cores in transformers for power supplies. It is used in the manufacture of welding rods and fluxes. It is one of the raw materials in the manufacture of professional-grade ferrites.
Manganese oxide nanoparticles have many oxidation states (+2, +3, +4) and forms a variety of oxides like MnO, MnO2, Mn2O3, Mn3O4, and Mn5O8. For that reason, it has attracted significant research efforts. It has a wide range of applications in catalytic, electrochemical, magnetic, optical and electrocatalytic biosensors. Especially, Mn2O3 has attracted much interest as an anode material in the lithium-ion battery and can also be used for preparing soft magnetic materials such as manganese zinc ferrite.
Manganese oxide nanoparticles MnO, Mn2O3, and Mn3O4 have a wide range of applications in catalysis and battery technologies. Polymorphs of Mn2O3 have been used as a catalyst for removing carbon monoxide, nitrogen oxide from waste gas. Researchers have shown considerable interest in the last few years in lithium intercalated Mn2O3 as an electrode material for rechargeable lithium batteries.
Manganese oxides nanoparticles can be utilized for advanced materials in batteries as well as other agents such as water treatment agents and imaging contrast agents. Manganese oxides nanomaterials ( MnO) and MnO2, have attracted great interest as anode materials in lithium-ion batteries (LIBs) for their high theoretical capacity, environmental benignity, low cost, and special properties. Up to now, manganese oxides nanostructures with excellent properties and various morphologies have been successfully synthesized.
Manganese oxide nanoparticles MnO, Mn2O3, and Mn3O4 have a wide range of applications in catalysis and battery technologies. Polymorphs of Mn2O3 have been used as a catalyst for removing carbon monoxide, nitrogen oxide from waste gas. Researchers have shown considerable interest in the last few years in lithium intercalated Mn2O3 as an electrode material for rechargeable lithium batteries.
Nano-sized Manganese oxide nanoparticles are expected to display better performance due to a reduction in grain size and increased surface area. It is also used to prepare soft magnetic materials such as manganese, zinc ferrite, which is useful for magnetic cores in transformers for power supplies. It is used in the manufacture of welding rods and fluxes. It is one of the raw materials in the manufacture of professional-grade ferrites.
Manganese oxide nanoparticles have many oxidation states (+2, +3, +4) and forms a variety of oxides like MnO, MnO2, Mn2O3, Mn3O4, and Mn5O8. For that reason, it has attracted significant research efforts. It has a wide range of applications in catalytic, electrochemical, magnetic, optical and electrocatalytic biosensors. Especially, Mn2O3 has attracted much interest as an anode material in the lithium-ion battery and can also be used for preparing soft magnetic materials such as manganese zinc ferrite.
Manganese oxide nanoparticles (MnO2) is one of the most attractive inorganic materials. The manganese oxide nanoparticles have a larger surface area, and these positively charged particles have a strong interaction with negatively charged particles. Compared to other metal oxide nanoparticles, MnO2 has the advantage of easily prepared from readily available solvents. Nano- MnO2 has been widely used in various areas and recently reported to have a good bactericidal effect.
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Manganese Oxide Nanoparticles (Mn2O3, Purity: 99.9 %, APS: 80nm)